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Implantable chips bear promise, but privacy standards needed
July 28, 2005BOSTON - Radio frequency identification (RFID) chips implanted into human beings hold the promise of improving patient care, particularly in emergency settings, but only after privacy questions are addressed, according to a Beth Israel Deaconess Medical Center (BIDMC) physician who has a chip implanted in his arm.
Writing in the July 28 edition of the New England Journal of Medicine, John Halamka, MD, chief information officer at BIDMC and Harvard Medical School and an emergency room physician, says the chip implanted in his upper right arm would allow anyone with a handheld RFID reader to scan his arm and obtain his 16-digit medical identifier.
The chip, which consists of several small components encased in an unbreakable glass capsule, was implanted in his arm in December 2004 with only a local anesthetic. Any authorized health care worker can visit a secure web site hosted by the chip manufacturer and retrieve information about his identity, and that of his primary care physician, who could provide medical history details.
Recalling his experience as an emergency medicine resident who could spend hours trying to determine the identify of John or Jane Doe patient, Halamka believes properly encrypted technology could prove to be a boon in helping to avoid unwanted medical interventions. "For patients with Alzheimer's disease who wander away from home, an identifier that enables caregivers to identify non-verbal or confused patients and determine their health care preferences could be very desirable," he says.
But a number of significant legal, ethical and technological hurdles need to be overcome first.
"Since my chip contains only my medical identifier, unauthorized reading would not disclose health information," says Halamka. "But nothing is simple," noting current technology and lack of specific privacy policy could enable spammers to track him in a manner similar to computer "spyware" that infests computers after visits to certain Internet sites.
There are significant ethical questions about inserting chips in patients incapable of proving informed consent. Technology "hackers" continue to be one step ahead of developers and have shown the ability to break the encryption of existing chips used to purchase gasoline and provide automobile security. And the technology is not cheap: each chips costs $200 and a reader costs $650, raising the question of whether it is a practical investment for caregivers.
While Halamka reports the chip has resulted in no discomfort, even as he has maintained an active lifestyle that has included extremes of temperature, wind and water while rock and ice climbing. If he wishes to upgrade the chip, it would require minor surgery. Otherwise, it is expected to last at least 10 years, can safely undergo magnetic resonance imaging and passes through airport security systems without incident.
But one of the greatest potential hurdles to widespread adoption may be psychological.
"It is clear there are philosophical consequences to having a lifelong implanted identifier. Friends and associates have commented that I am now 'marked' and lost my anonymity. Several colleagues find the notice of a device implanted under the skins to be dehumanizing. I have not investigated these or other moral, religious or political implications.
"On the basis or my unscientific study with a sample of one, I conclude that there may be appropriate uses, that there are privacy concerns that must be accepted by the implantee and that we need to establish standards that permit seamless, secure access to information,\\\
Beth Israel Deaconess Medical Center
Recalling his experience as an emergency medicine resident who could spend hours trying to determine the identify of John or Jane Doe patient, Halamka believes properly encrypted technology could prove to be a boon in helping to avoid unwanted medical interventions. "For patients with Alzheimer's disease who wander away from home, an identifier that enables caregivers to identify non-verbal or confused patients and determine their health care preferences could be very desirable," he says.
But a number of significant legal, ethical and technological hurdles need to be overcome first.
"Since my chip contains only my medical identifier, unauthorized reading would not disclose health information," says Halamka. "But nothing is simple," noting current technology and lack of specific privacy policy could enable spammers to track him in a manner similar to computer "spyware" that infests computers after visits to certain Internet sites.
There are significant ethical questions about inserting chips in patients incapable of proving informed consent. Technology "hackers" continue to be one step ahead of developers and have shown the ability to break the encryption of existing chips used to purchase gasoline and provide automobile security. And the technology is not cheap: each chips costs $200 and a reader costs $650, raising the question of whether it is a practical investment for caregivers.
While Halamka reports the chip has resulted in no discomfort, even as he has maintained an active lifestyle that has included extremes of temperature, wind and water while rock and ice climbing. If he wishes to upgrade the chip, it would require minor surgery. Otherwise, it is expected to last at least 10 years, can safely undergo magnetic resonance imaging and passes through airport security systems without incident.
But one of the greatest potential hurdles to widespread adoption may be psychological.
"It is clear there are philosophical consequences to having a lifelong implanted identifier. Friends and associates have commented that I am now 'marked' and lost my anonymity. Several colleagues find the notice of a device implanted under the skins to be dehumanizing. I have not investigated these or other moral, religious or political implications.
"On the basis or my unscientific study with a sample of one, I conclude that there may be appropriate uses, that there are privacy concerns that must be accepted by the implantee and that we need to establish standards that permit seamless, secure access to information,\\\
Beth Israel Deaconess Medical Center
RFID Current Events and RFID News RSSBuilding the smart home wirelessly
Like the paperless office, the smart home has been a long time coming, but a report published in the International Journal of Internet Protocol Technology, suggests that radio tags coupled with mobile communications devices could soon provide seamless multimedia services to the home.
GTRI is developing protocols for testing effects of RFID systems on medical devices
Radio frequency identification (RFID) systems are widely used for applications that include inventory management, package tracking, toll collection, passport identification and airport luggage security. More recently, these systems have found their way into medical environments to track patients, equipment assets and staff members.
Measuring the next successful antennas for in-body health monitoring devices
Antennas for the latest implanted medical devices are being developed by Queen Mary University of London and tested through a unique piece of kit at the UK's National Physical Laboratory (NPL).
An intelligent system avoids forgetting things
A team of researchers from the University of Granada (UGR) has created a system with Artificial Intelligence techniques which notifies elderly people or people with special needs of the forgetting of certain everyday tasks.
ORNL finding could help electronics industry enter new phase
Electronic devices of the future could be smaller, faster, more powerful and consume less energy because of a discovery by researchers at the Department of Energy's Oak Ridge National Laboratory.
Bridging the gap between wireless sensor networks and the scientists who use them
A new, simpler programming language for wireless sensor networks is designed for easy use by geologists who might use them to monitor volcanoes and biologists who rely on them to understand birds' nesting behaviors, for example. Researchers at the University of Michigan and Northwestern University have written the language with the novice programmer in mind.
New RFID technology tracks and monitors nuclear materials
Radio frequency identification (RFID) devices have widely been used for tracking for years; recently, scientists from U.S. Department of Energy's (DOE) Argonne National Laboratory have developed a unique tracking technology that also monitors the environmental and physical conditions of containers of nuclear materials in storage and transportation.
Pilot study shows effectiveness of new, low-cost method for monitoring hand hygiene compliance
Epidemiologists and computer scientists at the University of Iowa have collaborated to create a new low-cost, green technology for automatically tracking the use of hand hygiene dispensers before healthcare workers enter and after they exit patient rooms.
Mayo Clinic study tackles labeling errors
With a long-held commitment to continuously improving the quality and safety of patient care, Mayo Clinic researchers are recommending a new technologically-advanced labeling system aimed at reducing specimen labeling errors in a high-volume gastrointestinal endoscopy center
RFID testbed measures multiple tags at once and rapidly assesses new antenna designs
Researchers have designed a system capable of simultaneously measuring hundreds of radio frequency identification (RFID) tags and rapidly testing new RFID tag prototypes.
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